Photoneutron Contamination From an 18 Mv Saturne Medical Linear Accelerator in the Treatment Room

Science Communicator Platform

Stay connected! Follow us on X network (Twitter):

Share this content! On (X network) By

Photoneutron Contamination From an 18 Mv Saturne Medical Linear Accelerator in the Treatment Room Publisher Pubmed

Khosravi M^{1, 2} ; Shahbazigahrouei D¹ ; Jabbari K¹ ; Nasrinasrabadi M³ ; Baradaranghahfarokhi M¹ ; Siavashpour Z⁴ ; Gheisari R^{2, 5} ; Amiri B⁶

Show Affiliations

1. Department of Medical Physics and Medical Engineering, School of Medicine, Isfahan University of Medical Sciences, Isfahan, Iran
2. Radiation and Pollution Protection Center of Mamasani, Fars, Iran
3. Department of Nuclear Engineering, School of Advanced Sciences and Technologies, University of Isfahan, Isfahan, Iran
4. Department of Medical Radiation Engineering, Shahid Beheshti University, Tehran, Iran
5. Department of Physics, School of Science, Persian Gulf University, Booshehr, Iran
6. Department of Mechanical Engineering, Sharif Tecnology University, Tehran, Iran

Source: Radiation Protection Dosimetry Published:2013

Abstract

Dose escalation with high-energy X rays of medical linear accelerators (linacs) in radiotherapy offers several distinct advantages over the lower energy photons. However, owing to photoneutron reactions, interaction of high-energy photons (>8 MV) with various high-Z nuclei of the materials in the linac head components produces unavoidable neutrons. The aim of this study was to evaluate the photoneutron dose equivalent per unit therapeutic X-ray dose of 18 MV, GE Saturne 20 linac in the treatment room using Monte Carlo (MC) MCNP linac head full simulation as well as thermoluminescence dosemeter measurements. This machine is one of the old linac models manufactured by General Electric Company; however, it is widely used in the developing countries because of low cost and simple maintenance for radiotherapy applications. The results showed a significant photoneutron dose from Saturne 20 linac head components especially at distances near the linac head (<150 cm). Results of this work could be used in several applications, especially designing bunker and entrance door shielding against neutrons produced by photoneutron reactions in GE Saturne 20. However, a detailed cost optimisation for a specific room would require a dedicated calculation. © The Author 2013. Published by Oxford University Press. All rights reserved.

Related Docs

View other Related Docs

1. Photoneutron Shielding Design for an 18 Mv Saturne 20 Medical Linear Accelerator, Journal of Isfahan Medical School (2014)

2. A Study of the Photoneutron Dose Equivalent Resulting From a Saturne 20 Medical Linac Using Monte Carlo Method, Nukleonika (2007)

3. The Influence of Brass Compensator Thickness and Field Size on Neutron Contamination Spectrum in 18Mv Elekta Sl 75/25 Medical Linear Accelerator With and Without Flattening Filter: A Monte Carlo Study, Journal of Biomedical Physics and Engineering (2018)

4. Measurement of Photoneutron Dose in the Linear Accelerator at the Radiation Therapy Section of Seyed-Al-Shohada Hospital, Isfahan, Iran, Journal of Isfahan Medical School (2012)

5. Essential Considerations for Accurate Evaluation of Photoneutron Contamination in Radiotherapy, Applied Radiation and Isotopes (2019)

6. Measurement of Photoneutron Dose Produced by Wedge Filters of a High Energy Linac Using Polycarbonate Films, Journal of Radiation Research (2008)

7. Feasibility of 18-Mv Grid Therapy From Radiation Protection Aspects: Unwanted Dose and Fatal Cancer Risk Caused by Photoneutrons and Scattered Photons, Computer Methods and Programs in Biomedicine (2022)

8. The Effect of Field Modifier Blocks on the Fast Photoneutron Dose Equivalent From Two High-Energy Medical Linear Accelerators, Radiation Protection Dosimetry (2008)

Experts (# of related papers)

View all Related Experts

Daryoush Shahbazi-Gahrouei (13)

Mohammad Bagher Tavakoli (11)

Other Related Docs

9. Semi-Experimental Assessment of Neutron Equivalent Dose and Secondary Cancer Risk for Off-Field Organs in Glioma Patients Undergoing 18-Mv Radiotherapy, PLoS ONE (2022)

10. Evaluation of Risk of Secondary Thyroid Cancer Caused by Neutron Dose Equivalent From Brain Tumor 3D-Conformal Radiation Therapy (3D-Crt), Journal of Isfahan Medical School (2020)

11. Evaluation of Absorbed Dose From Common Radiology Examinations in Yasuj, Iran Using Experimental Measurement and Monte Carlo Calculations, Journal of Isfahan Medical School (2016)

12. Estimating Radiotherapy-Induced Secondary Cancer Risk Arising From Brain Irradiation at High Energy: A Monte Carlo Study, Frontiers in Biomedical Technologies (2022)

13. Monte Carlo Simulation of Siemens Oncor Linear Accelerator With Beamnrc and Dosxyznrc Code, Journal of Medical Signals and Sensors (2013)

14. Evaluation of Dosimetric Characteristics of Diodes and Ionization Chambers in Small Megavoltage Photon Field Dosimetry, International Journal of Radiation Research (2018)

15. Monte Carlo Modeling of Skyshine Dose Distribution in Vicinity of Medical Accelerator Facilities, Journal of Isfahan Medical School (2017)

16. Assessment of Skyshine Photon Dose Rates From 9 and 18 Mv Medical Linear Accelerators, International Journal of Radiation Research (2018)

17. Dose Perturbation Due to Dental Amalgam in the Head and Neck Radiotherapy: A Phantom Study, Medical Dosimetry (2020)

18. Quality of Medical Care in Mammography Divisions: A Report and Review of the Literature, Life Science Journal (2014)

19. An Intraoral Cone System for a Neptun 10Pc Linear Accelerator, Nukleonika (2011)

20. Monte Carlo Study and Design of System for Implementation of Rotational Total Skin Electron Irradiation Technique, Journal of Instrumentation (2018)

21. Dosimetric Verification of Lung Phantom Calculated by Collapsed Cone Convolution: A Monte Carlo and Experimental Evaluation, Journal of X-Ray Science and Technology (2019)

22. Monte Carlo Evaluation of Out-Of-Field Dose in 18 Mv Pelvic Radiotherapy Using a Simplified Female Mird Phantom, Biomedical Physics and Engineering Express (2022)

23. Measurement of Imposed Radiation Dose and Normal Tissue Complications Probability to Lung and Heart in Patients With Mastectomy Using Two Common Tangential Radiotherapy Methods of Supraclavicular Nodes, Anterior-Posterior (Ap) and Two Parallel Opposed Fields (Pofs), Journal of Isfahan Medical School (2018)

24. Dosimetric Comparison of Two Methods of Three-Dimensional Conformal Radiotherapy and Helical Tomotherapy in Head and Neck Cancer Patients With Involvement of Regional Lymph Nodes, Journal of Isfahan Medical School (2023)

25. Investigation of the Absorbed Dose and Estimation of the Risk of Secondary Thyroid Cancer in Whole-Brain Radiotherapy, Journal of Isfahan Medical School (2017)

26. Evaluation of the Photon Dose Calculation Accuracy in Radiation Therapy of Malignant Pleural Mesothelioma, Journal of Cancer Research and Therapeutics (2018)

27. Comparison of Electromagnetic and Hadronic Models Generated Using Geant 4 With Antiproton Dose Measured in Cern, Journal of Medical Physics (2015)

28. Design and Optimization of a Shield for Am-Be Source to Reduce Radiation Hazards Using Mcnpx Code, International Journal of Environmental Health Engineering (2022)

29. Sensitivity Analysis of a 6 Mev Photon Beam Monte Carlo Model, Journal of Medical Signals and Sensors (2023)

30. Quality Control Assessment of Radiology Devices in Kerman Province, Iran, Iranian Journal of Medical Physics (2016)

31. Calculation of Excess Dose to the Eye Phantom Due to a Distanced Shielding for Electron Therapy in Head and Neck Cancers, Journal of Medical Signals and Sensors (2012)

32. Monte Carlo Study of Fetal Dosimetry Parameters for 6 Mv Photon Beam, Journal of Medical Signals and Sensors (2013)

33. Monte Carlo Evaluation of the Potential Benefits of Flattening Filter Free Beams From the Oncor ® Clinical Linear Accelerator, Journal of X-Ray Science and Technology (2018)

34. Mobile Phone Radiation and Human Serum Components: A Short Literature Review on Recent Findings, Life Science Journal (2014)

35. A Comparison of the Basic Photon and Electron Dosimetry Data for Neptun 10Pc Linear Accelerators, Nukleonika (2008)

36. Characterization and Monte Carlo Simulation of Low- and High-Perturbation In-Vivo Diode Dosimeters for 9 Mv X-Rays, IFMBE Proceedings (2009)

37. Determination of the Neutron Contamination During Brain Radiotherapy Using a Moderated-Boron Trifluoride Detector and the Mcnp Monte Carlo Code, Radiation Protection Dosimetry (2022)

38. Review of Fast Monte Carlo Codes for Dose Calculation in Radiation Therapy Treatment Planning, Journal of Medical Signals and Sensors (2011)

39. Evaluation of Effective Field Size Characteristics for Small Megavoltage Photon Beam Dosimetry, International Journal of Radiation Research (2022)

40. The Quality Control of Intensity Modulated Radiation Therapy (Imrt) for Oncor Siemens Linear Accelerators Using Film Dosimetry, Iranian Journal of Medical Physics (2012)

41. A Novel Gpu-Based Fast Monte Carlo Photon Dose Calculating Method for Accurate Radiotherapy Treatment Planning, Journal of Biomedical Physics and Engineering (2020)

42. Evaluating the Effect of the Vacuum Bag on the Dose Distribution in Radiation Therapy, Journal of Cancer Research and Therapeutics (2018)

43. Development and Implementation of a Monte Carlo Frame Work for Evaluation of Patient Specific Out- of - Field Organ Equivalent Dose, International Journal of Radiation Research (2017)

44. Assessment of Imprecise Small Photon Beam Modeling by Two Treatment Planning System Algorithms, Journal of Medical Signals and Sensors (2018)

45. Dose-Response Modeling Using Mtt Assay: A Short Review, Life Science Journal (2014)

46. An Inter-Comparison Between Accuracy of Egsnrc and Mcnpx Monte Carlo Codes in Dosimetric Characterization of Intraoperative Electron Beam, Computers in Biology and Medicine (2021)

47. Evaluation of Testicular Dose and Associated Risk From Common Pelvis Radiation Therapy in Iran, Physica Medica (2014)

48. Measurement of Ipsilateral Lung and Heart Dose in Radiotherapy of Left Sided Mastectomy Patients in Common Different Clinical Techniques: A Phantom Study, International Journal of Radiation Research (2018)

49. Dosimetric Characteristics of 137Cs Sources Used in After Loading Selectron System by Monte Carlo Method, Iranian Journal of Radiation Research (2007)

50. Monte Carlo Simulation and Film Dosimetry for Electron Therapy in Vicinity of a Titanium Mesh, Journal of Applied Clinical Medical Physics (2014)

Style	Citing Format
MLA	Khosravi M, et al.. "Photoneutron Contamination From an 18 Mv Saturne Medical Linear Accelerator in the Treatment Room." Radiation Protection Dosimetry, vol. 156, no. 3, 2013, pp. 356-363.
APA	Khosravi M, Shahbazigahrouei D, Jabbari K, Nasrinasrabadi M, Baradaranghahfarokhi M, Siavashpour Z, Gheisari R, Amiri B (2013). Photoneutron Contamination From an 18 Mv Saturne Medical Linear Accelerator in the Treatment Room. Radiation Protection Dosimetry, 156(3), 356-363.
Chicago	Khosravi M, Shahbazigahrouei D, Jabbari K, Nasrinasrabadi M, Baradaranghahfarokhi M, Siavashpour Z, Gheisari R, Amiri B. "Photoneutron Contamination From an 18 Mv Saturne Medical Linear Accelerator in the Treatment Room." Radiation Protection Dosimetry 156, no. 3 (2013): 356-363.
Harvard	Khosravi M et al. (2013) 'Photoneutron Contamination From an 18 Mv Saturne Medical Linear Accelerator in the Treatment Room', Radiation Protection Dosimetry, 156(3), pp. 356-363.
Vancouver	Khosravi M, Shahbazigahrouei D, Jabbari K, Nasrinasrabadi M, Baradaranghahfarokhi M, Siavashpour Z, et al.. Photoneutron Contamination From an 18 Mv Saturne Medical Linear Accelerator in the Treatment Room. Radiation Protection Dosimetry. 2013;156(3):356-363.
BibTex	@article{ author = {Khosravi M and Shahbazigahrouei D and Jabbari K and Nasrinasrabadi M and Baradaranghahfarokhi M and Siavashpour Z and Gheisari R and Amiri B}, title = {Photoneutron Contamination From an 18 Mv Saturne Medical Linear Accelerator in the Treatment Room}, journal = {Radiation Protection Dosimetry}, volume = {156}, number = {3}, pages = {356-363}, year = {2013} }
RIS	TY - JOUR AU - Khosravi M AU - Shahbazigahrouei D AU - Jabbari K AU - Nasrinasrabadi M AU - Baradaranghahfarokhi M AU - Siavashpour Z AU - Gheisari R AU - Amiri B TI - Photoneutron Contamination From an 18 Mv Saturne Medical Linear Accelerator in the Treatment Room JO - Radiation Protection Dosimetry VL - 156 IS - 3 SP - 356 EP - 363 PY - 2013 ER -

Science Communicator Platform

Authors

Authors Affiliations

Abstract